The GE IC697BEM713GD is a high-performance bus transmitter expansion board designed for industrial automation systems, enhancing communication capabilities and data transmission efficiency.
home
The GE IC697BEM713GD is a high-performance bus transmitter expansion board designed for industrial automation systems, enhancing communication capabilities and data transmission efficiency.
open
close
Place of Origin:Manufactured by GE-FANUC
Model Number:IC697BEM713GD
Expansion Slot Compatibility:Half Slot
Data Rate:500 Kbytes/second
Effective Data Transfer Time:20-30 seconds for storing 16 KB program
Max Cable Length:Up to 50 feet
Supported Expansion Racks:Up to seven
Compatibility with GE Fanuc Systems:Compatible with GE Fanuc PLCs for enhanced system scalability
Integrating advanced microprocessor technology, the IC697BEM713GD Bus Transmitter-Expansion Board ensures reliable and fast data communication within industrial automation networks. Its high data transfer rate and low storage time facilitate real-time operation and improve overall system efficiency.
Designed with a half slot compatibility, this board seamlessly integrates into GE Fanuc PLC systems, expanding their functionality and enhancing connectivity options. The modular design allows for easy expansion, supporting up to seven additional expansion racks to accommodate growing network demands.
The IC697BEM713GD is equipped with robust cable management features to ensure stable data transmission over long distances, making it suitable for industrial environments where reliability and endurance are paramount.
With its high-speed data transfer capabilities, this board optimizes the performance of industrial control systems, enabling faster response times and improved operational accuracy. It is an ideal choice for manufacturers looking to enhance their automation capabilities with efficient and scalable solutions.
Backed by the expertise of GE-FANUC, the IC697BEM713GD Bus Transmitter-Expansion Board comes with comprehensive support, ensuring quick deployment and minimizing downtime during maintenance or upgrades.
